EBK PHYSICAL SCIENCE
EBK PHYSICAL SCIENCE
11th Edition
ISBN: 8220103146722
Author: Tillery
Publisher: YUZU
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Chapter 20, Problem 4PEB
To determine

The statue that needsto be straightened first from the list of the details shared for creep rate in table.

Expert Solution & Answer
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Answer to Problem 4PEB

Solution:

The statue installed in 1933 must be straightened first.

Explanation of Solution

Given data:

The statues must be straightened when the displacement reaches 15 cm to prevent toppling.

By measuring the tilt angle on the statues, it is determined.

Date InstalledRate(mm/yr)19332.0119572.3519633.119762.6919852.5

Formula used:

Writing the expression for weathering rate by dividing the displacement by the age of the statues.

Rate=Displacementage

Explanation:

Recallingtheexpression for weathering rate.

Rate=Displacementage

Rearranging it as,

Displacement=Rate(age)…… (1)

For the installation date of 1933, the age is:

20051933=72 yr

Converting the displacement rate to cmyr.

2.01 mmyr=2.01 mmyr(1 cm10 mm)=0.201 cmyr

Substituting 0.201 cmyr for rate and 72 yr for age in equation (1).

Displacement1933=0.201 cmyr(72 yr)=14.5 cm

Subtracting the displacement from the 15 cm specification to determine remaining displacement (RD).

RD1933=15 cm14.5 cm=0.5 cm

Dividing RD by the creep rate to determine the number of years left:

Year remaining1933=0.5 cm0.201 cmyr=2.5 yr

For installation date of 1957, the age is:

20051957=48 yr:

Converting displacement rate to cmyr.

2.35 mmyr=2.35 mmyr(1 cm10 mm)=0.235 cmyr

Substituting 0.235 cmyr for rate and 48 yr for age in equation (1).

Displacement1957=0.235 cmyr(48 yr)=11.3 cm

Subtracting the displacement from the 15 cm specification to determine remaining displacement (RD).

RD1957=15 cm11.3 cm=3.7 cm

Dividing RD by the creep rate to determine the number of years left.

Year remaining1957=3.7 cm0.235 cmyr=15.7 yr

For installation date of 1963 the age is:

20051963=42 yr

Converting displacement rate to cmyr.

3.1 mmyr=3.1 mmyr(1 cm10 mm)=0.31 cmyr

Substituting 0.31 cmyr for rate and 42 yr for age in equation (1).

Displacement1963=0.31 cmyr(42 yr)=13.0 cm

Subtracting the displacement from the 15 cm specification to determine remaining displacement (RD).

RD1963=15 cm13.0 cm=2 cm

Dividing RD by the creep rate to determine the number of years left:

Year remaining1963=2 cm0.310 cmyr=6.5 yr

For installation date of 1976, the age is:

20051976=29 yr

Converting displacement rate to cmyr.

2.69 mmyr=2.69 mmyr(1 cm10 mm)=0.269 cmyr

Substituting 0.269 cmyr for rate and 29 yr for age in equation (1).

Displacement1976=0.269 cmyr(29 yr)=7.8 cm

Subtracting the displacement from the 15 cm specification to determine remaining displacement (RD).

RD1976=15 cm7.8 cm=7.2 cm

Dividing RD by the creep rate to determine the number of years left.

Year remaining1976=7.2 cm0.269 cmyr=26.8 yr

For installation date of 1985, the age is:

20051985=20 yr

Converting displacement rate to cmyr.

2.5 mmyr=2.5 mmyr(1 cm10 mm)=0.25 cmyr

Substituting 0.25 cmyr for rate and 20 yr for age in equation (1).

Displacement1985=0.25 cmyr(20 yr)=5 cm

Subtracting the displacement from the 15 cm specification to determine remaining displacement (RD).

RD1933=15 cm5 cm=10 cm

Dividing RD by the creep rate to determine the number of years left.

Year remaining1985=10 cm0.250 cmyr=40 yr

Conclusion:

The statue installed in 1933 must be straightened first.

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Chapter 20 Solutions

EBK PHYSICAL SCIENCE

Ch. 20 - 1. Small changes that result in the breaking up,...Ch. 20 - 2. The process of physically removing weathered...Ch. 20 - 3. Muddy water rushing downstream after a heavy...Ch. 20 - 4. The physical breakup of rocks without any...Ch. 20 - 5. Chemical weathering, the dissolving or...Ch. 20 - 6. The process of peeling off layers of rock,...Ch. 20 - 7. The weak acid formed by the reaction of water...Ch. 20 - 8. A mixture of unconsolidated weathered earth...Ch. 20 - 9. Decay-resistant, altered organic material...Ch. 20 - 10. Two minerals that usually remain after...
Ch. 20 - 11. Weathered materials move to lower elevations...Ch. 20 - 12. The slow movement downhill of soil on the...Ch. 20 - 13. The wide, level floor of a valley built by a...Ch. 20 - 14. The deposit at the mouth of a river where...Ch. 20 - 15. Rock fragments frozen in moving glacier ice...Ch. 20 - 16. The agent that has the least ability to...Ch. 20 - Prob. 17ACCh. 20 - Prob. 18ACCh. 20 - 19. What is the pH of natural rainwater? a. 5.0...Ch. 20 - 20. Freezing water exerts pressure on the wall...Ch. 20 - 21. Of the following rock weathering events, the...Ch. 20 - 22. Which of the following would have the...Ch. 20 - 23. Broad meanders on a very wide, gently sloping...Ch. 20 - Prob. 24ACCh. 20 - 25. A likely source of loess is a. rock...Ch. 20 - 26. The landscape in a dry climate tends to be...Ch. 20 - 27. Peneplains and monadnocks are prevented from...Ch. 20 - 28. The phrase weathering of rocks means a. able...Ch. 20 - 29. What are you doing to a rock if you pick up...Ch. 20 - 30. What are you doing to the fragments of a...Ch. 20 - 31. What are you doing to a rock if you dissolve...Ch. 20 - Prob. 32ACCh. 20 - 33. The soil called loam is a. all sand and...Ch. 20 - 34. A moraine is a a. wind deposit. b. glacier...Ch. 20 - 35. The breaking up, crumbling, chemical...Ch. 20 - 36. Crushing of rock at a quarry to make...Ch. 20 - 37. Fragments of rocks fall into a mountain...Ch. 20 - 38. Tree roots grow and expand, and eventually...Ch. 20 - 39. Damage to the Lincoln Memorial by rain and...Ch. 20 - 40. Ferromagnesian minerals will react with...Ch. 20 - 41. You are planning a garden and need a soil...Ch. 20 - 42. The formation of a shallow layer of water by...Ch. 20 - 43. The most extensive glaciers in the United...Ch. 20 - 44. Continental glaciers are found...Ch. 20 - 45. An example of a chemical weathering process...Ch. 20 - Prob. 1QFTCh. 20 - 2. Granite is the most common rock found on...Ch. 20 - 3. What other erosion processes are important as...Ch. 20 - 4. Describe three ways in which a river erodes...Ch. 20 - Prob. 5QFTCh. 20 - Prob. 6QFTCh. 20 - 7. What is a glacier? How does a glacier erode...Ch. 20 - 8. What is rock flour and how is it produced? Ch. 20 - 9. Could a glacier erode the land lower than sea...Ch. 20 - 10. Explain why glacial erosion produces a...Ch. 20 - Prob. 11QFTCh. 20 - Prob. 12QFTCh. 20 - 13. What essential condition must be met before...Ch. 20 - 14. Compare the features caused by stream...Ch. 20 - 15. Compare the materials deposited by streams,...Ch. 20 - 16. Why do certain stone buildings tend to...Ch. 20 - Prob. 17QFTCh. 20 - 18. Discuss all the reasons you can in favor of...Ch. 20 - Prob. 1FFACh. 20 - 2. Speculate whether the continents will ever be...Ch. 20 - Prob. 3FFACh. 20 - Prob. 1PEBCh. 20 - 2. The average rate of chemical weathering of...Ch. 20 - 3. A slope is creeping at a rate of 1.2 mm/yr. A...Ch. 20 - Prob. 4PEBCh. 20 - Prob. 5PEBCh. 20 - Prob. 6PEBCh. 20 - 7. The elevation of a streambed is surveyed near...Ch. 20 - 8. Each year, sheet erosion removes 0.9 mm of...Ch. 20 - Prob. 9PEBCh. 20 - Prob. 10PEBCh. 20 - 11. The discharge (Q) of a stream is the velocity...Ch. 20 - 12. What is the velocity (v) of a stream with a...Ch. 20 - Prob. 13PEBCh. 20 - 14. A 1998 survey of glacial end moraines...Ch. 20 - 15. Rates of tectonic uplift can be determined...
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